| Description |
1 online resource (xv, 790 pages) : illustrations |
| Series |
Condensed matter research and technology series |
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Condensed matter research and technology series.
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| Contents |
SUPERCRITICAL FLUIDS -- SUPERCRITICAL FLUIDS -- Contents -- Preface -- Modification and Preparation of Membrane in Supercritical Carbon Dioxide -- Abstract -- 1. Introduction -- 2. Mebrane Formation via SCCO2 Induced Phase Separation -- 2.1. Phase Separation of Fluoropolymer Solution -- 2.2. Crystallization of Fluoropolymer Solution -- 2.3. Formation of Porous Membrane -- 2.4. Effect of CO2 Pressure on Membrane Formation -- 2.5. Effect of Temperature on Membrane Formation -- 2.6. Effect of Polymer Concentration on Membrane Formation |
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2.7. Effect of Solvents on Membrane Formation3. Supercritical Carbondioxide Extraction for Membrane Formation in TIPS -- 3.1. Thermally Induced Phase Separation (TIPS) -- 3.2. SCCO2 Extraction -- 3.2.1. SCCO2 extraction procedures -- 3.2.2. SCCO2 extraction conditions -- 3.3. The Microstructure and Morphology of Membranes -- 3.4. Comparison between Different Solvent Extraction -- 4. Membrane of Polymer Blends by SCCO2 -- 4.1. Polymer Blending in SCCO2 -- 4.2. Strategy of Modification for Polymer/Substrate Blends -- 4.3. Preparation of Polymer Blend Membranes |
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4.4. Characterization of Polymer Blend Membranes4.5. Copolymerizations of Styrene and Maleic Anhydride -- 5. Surface Modification of Membrane in SCCO2 -- 5.1. Surface-Grafted Membrane -- 5.2. Mechanism for Graft Modification of Polymer Membrane -- 5.3. Graft Copolymerization of Man/St onto the Surface of PVDF Membrane -- 5.4 Characterization of the Grafted Chains -- 5.5. Morphologies and Structure of the SMA-grfted PVDF Membrane -- 5.6. Surface Properties of the SMA-Based Membrane -- Surface hydrophilicity of the SMA-Based Membrane |
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Surface biocompatibility of the SMA-Based Membrane6. Conclusions -- Acknowledgment -- References -- The Critical Properties of a Binary Aqueous and CO2 Containing Mixtures and the Krichevskii Parameter -- Abstract -- 1. Introduction -- 1.1. Technological Applications of the Supercritical Fluid Mixtures Containing CO2 -- 1.2. Technological Applications of the Supercritical Fluid Mixtures Containing H2O -- 1.3. Scientific Applications of the Supercritical Fluid Mixtures -- 2. The Critical Properties of Binary Mixtures and Related Thermodynamic Properties |
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2.1. The Critical Properties of Binary Mixtures and The Krichevskii Parameter2.2. Partial Molar Volume, Henry�s Constant, Distribution Coefficient, Solubility, and Structurtal Properties of Dilute Mixtures and Krichevskii Parameter -- 2.3. The Critical Curves Shape Behavior and Asymptotic Scaling Properties of Binary Mixtures near the Critical Points of Pure Solvent -- 3. Experimental Methods -- 3.1. Method-1. Observation of the Appearance and Disappearance of Meniscus at the Vapor-Liquid Interface. “Sealed Tube� Method -- 3.2. Method-2. Law of Rectilinear Diameter |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Print version record |
| Subject |
Supercritical fluids -- Industrial applications
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TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.
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SCIENCE -- Chemistry -- Industrial & Technical.
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| Form |
Electronic book
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| Author |
Belinsky, Marcel R
|
| ISBN |
9781617284205 |
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1617284203 |
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